Keyphrases
Polyimide
100%
Thermoelectric Properties
100%
Laser-induced Graphene
100%
Laser Power
33%
Low Thermal Conductivity
22%
Porous Structure
22%
Seebeck Coefficient
22%
Graphene Flakes
22%
Thermoelectric Performance
22%
Graphitization Degree
22%
Electrical Conductivity
11%
High Thermal Conductivity
11%
Graphene-based Materials
11%
Electrical Conductivity Measurement
11%
P-type
11%
Laser Parameters
11%
Charge Carrier Mobility
11%
Structural Modification
11%
Tunability
11%
Promising Applications
11%
Material Cost
11%
Charge Carriers
11%
Semiconducting Behavior
11%
Tunable Electronic Properties
11%
Laser Scribing
11%
Energy Filtering Effect
11%
Thermoelectric Applications
11%
Wearable Thermoelectric Generator
11%
Engineering
Laser-Induced Graphene
100%
Thermoelectricity
100%
Laser Power
33%
Graphene
33%
Low Thermal Conductivity
22%
Porous Structure
22%
Graphitization
22%
Electrical Conductivity
22%
Seebeck Effect
22%
Charge Carrier
22%
High Thermal Conductivity
11%
Conductivity Measurement
11%
Figure of Merit
11%
Laser Parameter
11%
Promising Candidate
11%
Structural Modification
11%
Material Cost
11%
Filtering Effect
11%
Carrier Mobility
11%
Material Science
Polyimide
100%
Thermoelectrics
100%
Laser-Induced Graphene
100%
Graphene
33%
Thermal Conductivity
33%
Charge Carrier
22%
Electronic Property
11%
Carrier Mobility
11%
Chemical Engineering
Graphene
100%
Polyimide
100%
Thermal Conductivity
25%
Scalability
8%